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OIST Marine Genomics Unit since 2008

Gene
Gene Model IDpfu_aug2.0_1964.1_15330
Locus scaffold1964.1 : 46246 ... 89698 : +
To GenomeBrowser scaffold1964.1:46246..89698
Genes list of scaffold scaffold1964.1
Synonym pfu_aug1.0_2295.1_01044

Manual annotation
Annotation by Blast2GO
Annotation GO
inverted formin-2-like GO:0003779 GO:0035147

Hmmer Search for Pfam
query Total ID Target From To Eval Score cEval iEval Score
pfu_aug2.0_1964.1_15330.t1 3 1 Drf_FH3 126 310 1.5e-27 96.2 2.0e-31 1.5e-27 96.2
pfu_aug2.0_1964.1_15330.t1 3 1 FH2 132 154 2.0e-37 128.9 0.25 1900.0 -2.6
pfu_aug2.0_1964.1_15330.t1 3 2 FH2 420 558 2.0e-37 128.9 1.6e-22 1.2e-18 67.1
pfu_aug2.0_1964.1_15330.t1 3 3 FH2 559 671 2.0e-37 128.9 3.2e-21 2.4e-17 62.9
pfu_aug2.0_1964.1_15330.t1 3 2 Drf_FH3 597 637 1.5e-27 96.2 0.26 1900.0 -2.0
pfu_aug2.0_1964.1_15330.t1 3 3 Drf_FH3 1014 1043 1.5e-27 96.2 0.34 2500.0 -2.4

Blast Hit to nr / sp
query Subject ID Subject Name evalue
pfu_aug2.0_1964.1_15330.t1 gi|665784761|ref|XP_008543656.1| PREDICTED: uncharacterized protein LOC103568525 [Microplitis demolitor] 0.0
pfu_aug2.0_1964.1_15330.t1 gi|751236716|ref|XP_011172206.1| PREDICTED: uncharacterized protein LOC105204716 [Solenopsis invicta] 0.0
pfu_aug2.0_1964.1_15330.t1 gi|524881360|ref|XP_005097332.1| PREDICTED: flocculation protein FLO11-like [Aplysia californica] 0.0
pfu_aug2.0_1964.1_15330.t1 gi|524881425|ref|XP_005097364.1| PREDICTED: inverted formin-2-like [Aplysia californica] 0.0
pfu_aug2.0_1964.1_15330.t1 gi|391337018|ref|XP_003742871.1| PREDICTED: inverted formin-2-like [Metaseiulus occidentalis] 0.0

Transcript
Transcript IDpfu_aug2.0_1964.1_15330.t1
Definition- 
>pfu_aug2.0_1964.1_15330.t1
atggaggaaagtgtatcagacagcgaagttgatttcaattccaaaattgagaaaaatgtcccgaaaagaggttcccgttc
ctgggcatatcaagtgatcatatcgtgtttcacacctgttcagaccgctattagttatataggagacccagtccttttag
atattctacaccttaaaactcacaggaaggataaatactggaaggacggtgtcgccagaaaaccaacgtgtatgataagg
tctagtgtaagaaaaattctgtctaccaaagggtcaaggtcactgaatattgatgatgctctacagtcggataacttgac
cagtaaaaagcaagtttacgaactcctatcagcactatgtgtctattccaaagaaggctacgcatgcgcactggatgcct
tggaacatttaaaggatctgaagaaaaacaaatacagattttcggctttactggaggaacttcaggctactgacaatgaa
gactatcagaccaatctactggagtttatcaactgcatcattatatatacagagaagatagaggaaaggatcaggattag
aaatgaattttacggtcttcgtttacaggaagttttgaacagattaaggcgtaaagaagaccaagatcagaatgttctgg
ttcaattggacgttttcgatgaacacaaagcaaacgacgatgaacaacttccgggagcaaagggcgtcgatctcaatagc
ccattggacgtgtttcatgcaattttcaaacaaattggggacacaccacaagaaatcaacttcttgaccgctctacagca
catgctgcggatagatcccgcggataaaaatagtgatatagtgtggcaaacggtagagaagcttgtgtgtagagccactc
ttgtagaatcggaggaggattccagtaaacttatacaatcctccatgagaaagcgggaaaaatctacagacggaaaatgt
aattgttcctgccacgagggtgaaaggacacgtgtaatgtctccgaggagaacgaacaatgttgctcttccgggtttagc
caacggagcgacacctagtgacagtttaccaaaagtggcgtcgccaccaccccctccaccgccatgtgcaccagccccgc
cccctcccccgccattatttggtgccccacctccacccccaccgccccctggtgctccgggcgcaccgccaccacctccg
ccacctggtggcgtagcgcacatgttacgatcaaagcctcaggataaactacctcaacagaacgttcctactccgaagac
aaaaatgaggacattacaatggcagaaaattccagccaacaaagtggtgacgggaaaacccaacatttggtctacggcag
ggaaactctttaatggttacgtcagcaaatttgatttcggtgccatggattctctattcagtgtcagtgctccacaacca
acagggaatgaaaaagtcataggaggaaacgtttcagagaagaagaagaaggagcagaccgagatcaacctgttggaggg
caagagaagtctgaataccaatattttcttgaagcagttcagacttccaaacgaggatatagtccagctgctgagagacg
gtgctagcgagaaaataggtgctgaaaagctcaggggtctcctcaaaatcatgccatatccggacgagcaagctgaagag
aaaaatccaaggttgctggagtttcctgatgaaatgaaatttcttaaagatgcagcgccggtgtctgtcgaaaaccttat
atcagacatcaacaaccttgccaacaaactcaaaagtctgtcagaccaagtcaaaaatgtcaacacagagtttcaactgc
agatgaatcagtttttaggggttgctaattccgagatgggtgagttacaagaagacctgaaagacgtagaaagcctaaga
ttggaactggctgacttcttctgtgaagatcctaagactttcaaactggaggaggcatttaaaaccttacaaacgttctg
tgacagattcaagaaagcaatagaagaaaataaagctagaatcagacaagaacagaaggtggccaagaggagagaggagg
ctgaacgaaagaaacgaaattcagtgacagatattgacaacagagctccaggtgatcagtcgatggaccgaggagcagac
gatgaggaatcgtctatcgttgatatgttactagcagacgtcaggagtggatttgcaaaccgaaagttcggcgaaagtaa
cttttctgtgacaaaagttagaaaagtgaatttggataataatgataatgttacttccggtgccagtcagaaattcgttc
gtggtggtcacggaagacggagcatgcgtagaaagaaactggaagaggatattaatgataattttgactcggagagcacg
tgcagcagtttggaggacgcaaatgaacgcagtcgtgaagtaagtggtaacaaaaataataaactgatggatatacttac
gtatgaagacccgaagaaggacgatgataattttgaacgcgtcggctcgttacgaagaaggcgacaagaaaggaaggaga
aacgaaatgttttggacgtgcttgatcgagagagagcgccatcaccgaatgttgaaacattaaaatcgagtgacaatgag
agatctcgtccaaaaactccgtctacgctagatatacctacgcatgatggagagacgatctaccagatcaaccactacgt
cgcacgcgaagaagccgatgaaatggtcgctcgaatcaagcgaaaactgagtcagcgaggttcgtcaacatcacccgttc
caagcccggaaggcacgagtccacgtgtgcgcgatggcacaacatccccatcgcccgatgacgcacgtgctcgttggcgt
tctggtataactcaaactatagatcaaaataggaatcttcaaactatagacgaaagtcaaagactagaaactcctacgag
ggagttaatcgagaaagcagagtctgtgcaggacaaatctcaaacagagtcttcaatagaacgaagtcggactcaaatgg
cccgacgatttagtaatagaaacactatggatcccgaagatttgaggaaaatgttagaatcagtaggcgaaaataagaac
gactcaaatctgaaggacgtagactcagataatcttaaagtatcagtatcggttaaaacacagttaaatcgtagatggca
tagtgacttaggtaaaaacgatatcgaccaggtactgaaagctatagaggactctgaggcagggaaagagaaaccgacga
ggatgcagcctcaagccactgtacaggctcaaatgtccgatgcttctagtaatgacatgcgatctgctgacgaggcaacg
aattcgggaggtgaaaccgaagcactgaaagcaaaacgtaaaatacgaaaacaacgatcgaatctgtctctagacgacgt
gaagcaggcgctacattcaatgtcaaaaccgaccatggacgggaccggtgatcagcccatagcaaccgtcactgctacta
caacgcctacacagccgtcaccggaaccacccgaacttcccccgcgacgatcgcgatctactagcgaagcagacgacagg
aaaactccagagaaagaactaaaaccgaaacgcgaaaagaaagaatcggccaacatgagcaaagctgcgaaattggctgc
aaaacgcaggtttagacatgaacgatttggtgacaaggatagaccgttagatatctcaaacggaagatggaaaagtgatg
ttcagaaagaggaaattgatgaagctttgaaagacttaaaaggaggtatgagcaggtcaaagtcttacgatgaatccgtg
gctaggcgggcaatggatgaaaatggcgaattttctgtcgtgccgataaacagtgatattgataagaaatcattccgaaa
gagtgcaggaagactggattctgatggtagacgtaatggacattatttccctggcagcgatagtgatggagacatacatc
ccgatggtacttcttctccgcgaagaccatcgagttcaaaaagcgatagtccgaaaagttctagtcgtctgtctatcaaa
tcaacgagtacatccacagagacactgaggtgcgatactcctcacagtgacggagaatcctcgagtcctgaacagagacg
aaggaactccacgaccaaaagtcaggaaattcttagtaataccggatttaattcacgccctgtgtctataaacatagacg
acaacacccctcccgttgcccctcccagacagaggcgtgcaaatagtgctcttgataaatctgaaatagacgttgccgtc
acaatgcataaaatgcgggaggcacacgatgaggacgaatcgcccatgtctttgataagggactggaaaaagaaacgtag
tcaaaaacggatcagtcaatatgacaatgtatcggaccaggaaaatcccgtatcgcctagactagtcaaacaatccaatg
attctttcacgtttgagcatcatggatctctaagtccacgtggacacggtataccgataatacataaatcggagggaagc
ggcgattcgtctatcaagaacgaaatcggctcgcgttgcagttacgcaagcagcagtgatagtgcgcgggacgaaggatt
tgagaccatgtccggtacggtatcacagcgtacgtcacttagcagtacgctagaatcagaactcactcctactttgccgc
gtaaaattgaaatgatgaaacaaaataggaatgaacgacatccacaagaaatcattgtggcaaatgttcataaacaatca
gagctggacgctcgcaaacagagaacggagtcgtggacggaagcggtcgtcacaattcacaattctcctatggattcatc
aatggattttgccgtgtctcctgacagtgggctcgaaacgtcaaaggaagacgtgtggagcgaaaatatggacttagaaa
agacagtaacgataactcctgccagtccgcctctgtcgcctacaaatatggctcccctggcggagcccgagaactctgaa
agtgttagtatgtccaaaaagagtgttccgagttacatgcgaggtaccgctagcagctcaacgaaaacaggacgaccgag
ctcggctggttctaactctagcaaaagacaatccacggggagaacaactcacaaatccaatcttacgaaatcaaatcata
ctgaatcaaacacaagtattgtgtcgtctgcaagcgctgcgtccgagagtagcaatactccaaatgtgaataagaataag
ataactccaaaacgtaaatcaacacccggctccacgctcactacttcacgttcaactacaccacgccctccttcccgccc
gactacgccagctcatacacccacatcacgacccactacacccgcatcgcacttaagcccccgttctaccacgactcgtc
cctcatcaacaacaccagagcggggtttctcacgaacccagtcgttacgcttacctagtaaaacacgcacatctcttgga
tcatccgtaccggagcgaaaaacaacacccaacaaaaccacgcaagtatcaagctcgccgtcacaaaatacaaactcgtc
tgctaatacaagtaaacccagacgatcattcatgtctcctactgcgtcatcacaagccagagtggacagtccccctccgc
catctccccctcctcgtacaacatcagcagcgaataagccggctatcaaacctgcttctgtgtctacaatgaaacacaca
acggggcccagacaaactacgtcatccatgacaaaagcgtcgccttcccacaaaactccgtcaccatcgacgactacgcc
ttcgacaaaaacaactccggcgccaaaaccaccgtcagtttcaaacacagcggcagcagctcgagcaaagtcttcaagcg
tcacaaaatcaactacagcatcaccgctcagtcgacatggtagtttacggctaccgaaacgaactcctacagaaattgcg
aaaggtgtgtttcctgttgcagataaacaaactgatagtaaagttaaatcattcatgaacaaaataagtgggaatagaat
taaacccgaatcgccaacgaaagtttcaaaacttgatcatggaaaactggataccgtcgaagagcaatctcaagccgagg
aaacggcagccgctaacgacaaaccttcatctctcctgaagagaatcgttactaagacaaccactcgcaaatcagtggat
gccaacaaaaaagacggactagataaaaagaaagtcgtgaagaaatga

Protein
Protein IDpfu_aug2.0_1964.1_15330.t1
Definition- 
>pfu_aug2.0_1964.1_15330.t1
MEESVSDSEVDFNSKIEKNVPKRGSRSWAYQVIISCFTPVQTAISYIGDPVLLDILHLKTHRKDKYWKDGVARKPTCMIR
SSVRKILSTKGSRSLNIDDALQSDNLTSKKQVYELLSALCVYSKEGYACALDALEHLKDLKKNKYRFSALLEELQATDNE
DYQTNLLEFINCIIIYTEKIEERIRIRNEFYGLRLQEVLNRLRRKEDQDQNVLVQLDVFDEHKANDDEQLPGAKGVDLNS
PLDVFHAIFKQIGDTPQEINFLTALQHMLRIDPADKNSDIVWQTVEKLVCRATLVESEEDSSKLIQSSMRKREKSTDGKC
NCSCHEGERTRVMSPRRTNNVALPGLANGATPSDSLPKVASPPPPPPPCAPAPPPPPPLFGAPPPPPPPPGAPGAPPPPP
PPGGVAHMLRSKPQDKLPQQNVPTPKTKMRTLQWQKIPANKVVTGKPNIWSTAGKLFNGYVSKFDFGAMDSLFSVSAPQP
TGNEKVIGGNVSEKKKKEQTEINLLEGKRSLNTNIFLKQFRLPNEDIVQLLRDGASEKIGAEKLRGLLKIMPYPDEQAEE
KNPRLLEFPDEMKFLKDAAPVSVENLISDINNLANKLKSLSDQVKNVNTEFQLQMNQFLGVANSEMGELQEDLKDVESLR
LELADFFCEDPKTFKLEEAFKTLQTFCDRFKKAIEENKARIRQEQKVAKRREEAERKKRNSVTDIDNRAPGDQSMDRGAD
DEESSIVDMLLADVRSGFANRKFGESNFSVTKVRKVNLDNNDNVTSGASQKFVRGGHGRRSMRRKKLEEDINDNFDSEST
CSSLEDANERSREVSGNKNNKLMDILTYEDPKKDDDNFERVGSLRRRRQERKEKRNVLDVLDRERAPSPNVETLKSSDNE
RSRPKTPSTLDIPTHDGETIYQINHYVAREEADEMVARIKRKLSQRGSSTSPVPSPEGTSPRVRDGTTSPSPDDARARWR
SGITQTIDQNRNLQTIDESQRLETPTRELIEKAESVQDKSQTESSIERSRTQMARRFSNRNTMDPEDLRKMLESVGENKN
DSNLKDVDSDNLKVSVSVKTQLNRRWHSDLGKNDIDQVLKAIEDSEAGKEKPTRMQPQATVQAQMSDASSNDMRSADEAT
NSGGETEALKAKRKIRKQRSNLSLDDVKQALHSMSKPTMDGTGDQPIATVTATTTPTQPSPEPPELPPRRSRSTSEADDR
KTPEKELKPKREKKESANMSKAAKLAAKRRFRHERFGDKDRPLDISNGRWKSDVQKEEIDEALKDLKGGMSRSKSYDESV
ARRAMDENGEFSVVPINSDIDKKSFRKSAGRLDSDGRRNGHYFPGSDSDGDIHPDGTSSPRRPSSSKSDSPKSSSRLSIK
STSTSTETLRCDTPHSDGESSSPEQRRRNSTTKSQEILSNTGFNSRPVSINIDDNTPPVAPPRQRRANSALDKSEIDVAV
TMHKMREAHDEDESPMSLIRDWKKKRSQKRISQYDNVSDQENPVSPRLVKQSNDSFTFEHHGSLSPRGHGIPIIHKSEGS
GDSSIKNEIGSRCSYASSSDSARDEGFETMSGTVSQRTSLSSTLESELTPTLPRKIEMMKQNRNERHPQEIIVANVHKQS
ELDARKQRTESWTEAVVTIHNSPMDSSMDFAVSPDSGLETSKEDVWSENMDLEKTVTITPASPPLSPTNMAPLAEPENSE
SVSMSKKSVPSYMRGTASSSTKTGRPSSAGSNSSKRQSTGRTTHKSNLTKSNHTESNTSIVSSASAASESSNTPNVNKNK
ITPKRKSTPGSTLTTSRSTTPRPPSRPTTPAHTPTSRPTTPASHLSPRSTTTRPSSTTPERGFSRTQSLRLPSKTRTSLG
SSVPERKTTPNKTTQVSSSPSQNTNSSANTSKPRRSFMSPTASSQARVDSPPPPSPPPRTTSAANKPAIKPASVSTMKHT
TGPRQTTSSMTKASPSHKTPSPSTTTPSTKTTPAPKPPSVSNTAAAARAKSSSVTKSTTASPLSRHGSLRLPKRTPTEIA
KGVFPVADKQTDSKVKSFMNKISGNRIKPESPTKVSKLDHGKLDTVEEQSQAEETAAANDKPSSLLKRIVTKTTTRKSVD
ANKKDGLDKKKVVKK

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